Korean Journal of Mathematics

The Kangwon-Kyungki Mathematical Society (강원경기수학회)
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SEQUENTIAL INTERVAL ESTIMATION FOR THE EXPONENTIAL HAZARD RATE WHEN THE LOSS FUNCTION IS STRICTLY CONVEX

  • Jang, Yu Seon (Department of Applied Mathematics Kangnam University)
  • Received : 2013.09.02
  • Accepted : 2013.11.28
  • Published : 2013.12.30
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Abstract

Let $X_1$, $X_2$, ${\cdots}$, $X_n$ be independent and identically distributed random variables having common exponential density with unknown mean ${\mu}$. In the sequential confidence interval estimation for the exponential hazard rate ${\theta}=1/{\mu}$, when the loss function is strictly convex, the following stopping rule is proposed with the half length d of prescribed confidence interval $I_n$ for the parameter ${\theta}$; ${\tau}$ = smallest integer n such that $n{\geq}z^2_{{\alpha}/2}\hat{\theta}^2/d^2+2$, where $\hat{\theta}=(n-1)\bar{X}{_n}^{-1}/n$ is the minimum risk estimator for ${\theta}$ and $z_{{\alpha}/2}$ is defined by $P({\mid}Z{\mid}{\leq}{\alpha}/2)=1-{\alpha}({\alpha}{\in}(0,1))$ Z ~ N(0, 1). For the confidence intervals $I_n$ which is required to satisfy $P({\theta}{\in}I_n){\geq}1-{\alpha}$. These estimated intervals $I_{\tau}$ have the asymptotic consistency of the sequential procedure; $$\lim_{d{\rightarrow}0}P({\theta}{\in}I_{\tau})=1-{\alpha}$$, where ${\alpha}{\in}(0,1)$ is given.

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References

  1. Y. S. Chow and H. Robbins, On the asymptotic theory of fixed width sequential confidence intervals for the mean, Ann. Math. Stat. 36 (1965), 457-462. https://doi.org/10.1214/aoms/1177700156
  2. M. Ghosh, N. Mukhopadhyay, and P. K. Sen, Sequential Estimation, Wiley, 1997.
  3. Y. Takada, Non-existence of fixed sample size procedures for sacle families, Sequential Anal. 5 (1986), 99-100.
  4. K. D. Juhlin, Sequential and non-sequential confidence intervals with guaranteed coverage probability and beta-protection, PhD Dissertation, University of Illinois, 1985.
  5. S. M. Kay, Fundamentals of Statistical Signal Processing, Prentice Hall PTR, 1993.
  6. E. L. Lehmann and G. Cassella, The Theory of Point Estimation, 2nd edition, Springer, 1998.
  7. J. M. Pailden and D. L. L. Polestico, Sequential Confidence Intervals for the Exponential Hazard Rate, 10th National Convention on Statistics (NCS) Oct. 1-2, 2007.
  8. R. J. Serfling, Approximation Theorems of Mathematical Statistics, Wiley, 1980.
  9. Y. Takada, Non-existence of fixed sample size procedures for scale families, Sequential Anal. 5 (1986), 99-100.
  10. C. Uno, E. Isogai, and D. L. Lim, Sequential point estimation of a function of the exponential scale parameter, Aust. J. Stat. 33 (2004), 281-291.
  11. R. A. Wijsman, Sequential Confidence Intervals with Beta-Protection in One- Parameter Families, Lecture Notes-Monograph Series 8 (1985), 96-107.
  12. M. Woodroofe, Nonlinear renewal theory in sequential analysis, CBMS-NSF Regional Conference Series in Applied Mathematics 39, 1982., SIAM.